Sheath retainer devices, systems and methods

ABSTRACT

In general, medical sheath systems that can employ retainer devices having a plurality of channels configured to retain a sheath assembly in one or more curved configurations are described. In one embodiment, a retainer device may releasably retain a curvable tube of the sheath assembly in any of multiple curved configurations that range, for example, in selectable increments between 0° to 180°.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. application Ser. No.14/854,930, filed Sep. 15, 2015 know U.S. Pat. No. 10,099,037). Thedisclosure of the prior application is considered part of (and isincorporated by reference in) the disclosure of this application.

TECHNICAL FIELD

This document describes devices, systems and methods for retainingmedical devices, and in some embodiments, retainer devices having aplurality of channels for retaining sheaths in a straight or curvedconfiguration.

BACKGROUND

Radiation protection in the medical field is important, particularly forphysicians and healthcare practitioners. Procedures and therapies areoften designed to minimize patient exposure while allowing physicians toeffectively treat the patient. For example, imaging machines may bedesigned to decrease patient exposure by implementing lower radiationlevels. However, cumulative exposure of physicians and healthcarepractitioners may be significant as they often perform multipletreatments in a typical day, and may be increased when a particulartreatment requires physicians' hands, for example, to be within a fieldof radiation.

Healthcare workers using traditional equipment and techniques are oftenexposed to radiation during patient procedures. For example, physicians'or healthcare practitioners' hands may be exposed to radiation fromfluoroscopic imaging equipment when inserting a catheter in a patient'svessel, or when delivering other instruments, medicines, fluids, orother endovascular devices in a patient's vessel. Even when radiationlevels may be minimal for a given procedure, cumulative exposure ofphysicians and healthcare workers can be significant over the course ofmultiple procedures per day.

Physical barriers have often been used to limit radiation exposure.Radiation shielding and body wear, however, can be bulky and obtrusive.For example, some physical barriers can increase orthopedic stress onthe physician or healthcare worker using the body wear and/or inhibitergonomic efficiency. Some physicians and healthcare workers may foregosuch physical barriers to avoid one or more of these drawbacks. As aresult, physicians and healthcare workers may expose themselves toundesirable levels of radiation.

SUMMARY

In general, this document describes medical sheath systems that canemploy retainer devices having a plurality of channels configured toretain a sheath assembly in one or more straight or curvedconfigurations. In one embodiment, a retainer device may releasablyretain a curvable tube of the sheath assembly in any of multiple curvedconfigurations that range, for example, in selectable 30° incrementsbetween 0° and 180°. As such, a physician or other user can secure theretainer device to a skin surface of a patient and selectively mate thecurvable tube with the retainer device so that the curvable tube isretained in a selected curved configuration. Exemplary retainer devicesmay thus retain a tube in a particular configuration such that thepatient can be effectively treated while the physician or healthcarephysician operates from outside a radiation field or from anergonomically desirable position.

Particular embodiments described herein include retainer devices thatmay be used with a curvable tube to allow positioning of a sheathoutside of a radiation field or in a desired ergonomic position. Theretainer device maintains the desired positioning of the curvable sheathwhile treatment is performed. In this way, radiation exposure ofphysicians and healthcare workers may be reduced or minimized while alsoimproving the ergonomic and orthopedic impact upon the user.

In one aspect, a sheath assembly includes a curvable tube including afirst end having a connector and a second end having a port configuredto receive an interventional tool, the curvable tube configured to bendbetween a curved configuration and a substantially straightconfiguration in which the first end is linearly distal to the secondend, and a retainer having a plurality of channels configured toreleasably retain the curvable tube in first and second curvedconfigurations, the curvable tube forming a 180° curve when the curvabletube is retained by the retainer in the first curved configuration andforming a 90° curve when the curvable tube is retained by the retainerin the second curved configuration.

Implementations can include any, all, or none of the following features.The plurality of channels may include a first channel defining a firstchannel axis and a second channel defining a second channel axis, thefirst channel axis parallel to and offset from the second channel axis.The plurality of channels may include a first channel defining a firstchannel axis and a second channel defining a second channel axis, thefirst channel axis being coaxial with the second channel axis. Theplurality of channels may include a first channel defining a firstchannel axis and a second channel defining a second channel axis, thefirst channel axis angled 90° relative to the second channel axis. Theplurality of channels may include a third channel defining a thirdchannel axis, the third channel axis angled 90° relative to the firstchannel axis. The plurality of channels may include a fourth channeldefining a fourth channel axis, the fourth channel axis angled 45°relative to the first channel axis. The plurality of channels mayinclude a fifth channel defining a fifth channel axis, the fifth channelaxis coaxial with the first channel axis. The plurality of channels mayinclude a sixth channel defining a sixth channel axis, the sixth channelaxis angled 135° relative to the first channel axis. The retainer mayinclude a U-shaped frame. The first and second channels may be spacedalong the U-shaped frame. The plurality of channels may be fixedlypositioned relative to one another. The plurality of channels may eachupwardly open. The retainer may include an adhesive.

In another aspect, a sheath retainer device includes first, second,third and fourth channels configured to releasably retain a curvableportion of a sheath assembly and defining respective first, second,third and fourth channel axes, the second channel axis parallel andoffset from the first channel axis, the third channel axis coaxial withthe first channel axis, and the fourth channel angled 90° relative tothe first channel axis.

Implementations can include any, all, or none of the following features.The sheath retainer device may include a U-shaped frame, the first,second, third and fourth channels spaced along the U-shaped frame. Theplurality of channels may be fixedly positioned relative to one another.The plurality of channels may each upwardly open. The sheath device mayinclude a fifth channel defining a fifth channel axis, the fifth channelaxis angled 45° relative to the first channel axis.

In another aspect, a sheath assembly includes a curvable tube includinga first end having a connector and a second end having a port configuredto receive an interventional tool, the curvable tube configured to bendbetween a curved configuration and a substantially straightconfiguration in which the first end is linearly distal to the secondend, and a retainer having a plurality of channels configured toreleasably retain the curvable tube in first and second curvedconfigurations, the plurality of channels including first, second, thirdand fourth channels defining respective first, second, third and fourthchannel axes, the second channel axis parallel and offset from the firstchannel axis, the third channel angled 90° relative to the first channelaxis, and the fourth channel axis coaxial with the first channel axis.The curvable tube forms a 180° curve when portions of the curvable tubeare retained by the first and second channels, the curvable tube forms a90° curve when portions of the curvable tube are retained by the firstand third channels, and the curvable tube forms a substantially straightconfiguration when retained by the first and fourth channels. The sheathdevice may include a fifth channel defining a fifth channel axis, thefifth channel axis angled 45° relative to the first channel axis.

In another aspect, a medical sheath system includes a catheter having adistal end, a proximal end, and at least one lumen extending between hedistal end and the proximal end, and the catheter includes a sealableconnector at the proximal end having a septum. The medical sheath systemfurther includes a sheath assembly including a first end having aconnector to mate with the proximal end of the catheter and extendthrough the septum of the catheter, a second end having a septum hubport configured to receive an interventional tool, a curvable tubeconfigured to bend between a curved configuration and a substantiallystraight configuration in which the first end is linearly distal to thesecond end, and a side arm extending from the septum hub port anddefining a central lumen that extends to a valve device of the side arm,and a retainer configured to secure to a skin surface and having aplurality of channels configured to releasably retain the curvable tubein first and second curved configurations, the plurality of channelsincluding first, second, third and fourth channels defining respectivefirst, second, third and fourth channel axes, the second channel axisparallel and offset from the first channel axis, the third channelangled 90° relative to the first channel axis, and the fourth channelaxis coaxial with the first channel axis. The curvable tube forms a 180°curve when portions of the curvable tube are retained by the first andsecond channels, the curvable tube forms a 90° curve when portions ofthe curvable tube are retained by the first and third channels, and thecurvable tube forms a substantially straight configuration when retainedby the first and fourth channels. The retainer includes a fifth channeldefining a fifth channel axis, the fifth channel axis angled 45°relative to the first channel axis.

Some embodiments of the devices, systems and techniques described hereinmay provide one or more of the following advantages. First, retainerdevices described herein may reduce physical stress on a physician orhealthcare practitioner by allowing positioning of a curvable tube in aselected configuration, which is then retained in the selectedconfiguration, for a particular application or treatment location.Second, a port of a sheath assembly may be positioned outside of aradiation field. In this way, an interventional tool or other componentmay be introduced by a physician or healthcare practitioner withoutrequiring that their hands be directly exposed to maximum levels ofradiation. Similarly, a patient or healthcare practitioner may work at agreater distance away from imaging equipment, reducing potentialexposure to their head, neck, and other body parts. Third, retainerdevices and/or sheath assemblies described herein may allow improvedaccess to an intervention site for a physician or healthcarepractitioner and provide improved control of one or more instrumentsused with the retainer device and/or sheath assembly. For example,access to both sides of a conduit from the same operator position may befacilitated. Fourth, retainer devices and/or sheath assemblies describedherein may serve as an anchor to maintain a catheter and/or sheathassembly in a stable position relative to a patient access opening, andmay promote sterility. Fifth, easy positioning of a sheath assembly mayreduce treatment times of a particular procedure and improve overallpatient care.

The details of one or more implementations are set forth in theaccompanying drawings and the description below. Other features andadvantages will be apparent from the description and drawings, and fromthe claims.

DESCRIPTION OF DRAWINGS

The present description is further provided with reference to theappended Figures, wherein like structure is referred to be like numeralsthroughout the several views, and wherein:

FIG. 1 is a perspective view of a medical sheath system in accordancewith some embodiments.

FIGS. 2A and 2B are perspective views of an exemplary sheath assemblyincluding a curvable portion.

FIGS. 3A-3C show an exemplary retainer device according to the presentdescription.

FIG. 4A shows an exemplary retainer device and a curvable tube of asheath assembly in a 180° curved configuration.

FIG. 4B shows an exemplary retainer device and a curvable tube of asheath assembly in a 90° curved configuration.

FIG. 4C shows an exemplary retainer device and a curvable tube of asheath assembly in a 45° curved configuration.

FIG. 4D shows an exemplary retainer device and a curvable tube of asheath assembly in a straight configuration.

FIG. 5 shows an exemplary sheath assembly in use in a medicalenvironment.

DETAILED DESCRIPTION OF ILLUSTRATIVE EMBODIMENTS

Referring to FIG. 1, some embodiments of a medical sheath system 10include a sheath assembly 100, a retainer 250 configured to mate with acurvable tube 110 of sheath assembly 100, and optionally, a catheter 20and medical instrument 40. The system 10 is configured to retaincurvable tube 110 in a selected curved configuration and to extend auser's operative location further away from a proximal end 21 ofcatheter 20 and a radiation field (e.g., caused by a medical imagingsystem), thereby permitting the physician or healthcare practitioner tooperate from outside the radiation field and in a selected ergonomicposition while effectively treating the patient. As described in moredetail below, sheath assembly 100 in this embodiment is configured to beretained entirely outside the patient's body, and may include a firstend 111 and a second end 112 including a sealable port 116 (FIGS. 2A-B).Sealable port 116 allows interventional tool 40 (or other medicalinstrument) to be passed through curvable tube 110 and into catheter 20that extends into the patient's body at access point 30. Also asdescribed in more detail below, retainer 250 in this embodiment can bearranged on the exterior of the patient's body (e.g., adhered to thepatient's skin 60 or the like), and includes a plurality of retentionfeatures (FIGS. 3A-4D) that releasably retain curvable tube 110 in aplurality of curved configurations. In this way, retainer 250 maintainsthe curvable tube in a user-selected configuration from a plurality ofpredetermined configurations to enhance the ergonomic position of thephysician or other user while also providing an anchoring effect toreduce the likelihood of unintended withdrawal of catheter 20 or sheathassembly 100.

Catheter 20 may be any suitable access sheath, vascular sheath, orsuitable endovascular medical device, and is configured to extendthrough a perforation in a side wall and into an anatomical conduit,such as a blood vessel. In an exemplary embodiment, catheter 20 has aproximal end 21, a distal end 24, and at least one lumen 23 extendingbetween the proximal and distal ends 21, 22, and defines a pathway fordelivery or withdrawal of fluids, instruments such as guide wires orother interventional tools, or a combination thereof. Catheter 20includes a sealable connector having a septum 22 external to a patient'sskin 60 that is configured to releasably mate with first end 111 ofsheath assembly 100. One or more lumens 23 may extend just under theskin, and have a length between 2 cm and 10 cm, for example, or mayextend a greater distance into a patient, and have a length between 10cm and 100 cm or more, for example.

Referring now to FIGS. 2A and 2B, an exemplary sheath assembly 100according to the present description is illustrated. Sheath assembly 100includes a curvable tube 110 and a side arm 120. In an exemplaryembodiment, curvable tube 110 provides access to a catheter, forexample, such as an introducer sheath or other vascular accesscomponent, and provides a support sheath extension that may be used at avascular access site.

Curvable tube 110 includes a first end 111, second end 112 and anelongate portion 113. Elongate portion 113 defines a central passage orlumen through which an interventional tool, medicine, or other suitablecomponent may be delivered to or extracted from a vascular access site.First end 111 may include a connector end configured to be joined with ahemostasis valve or other port or connector of a catheter 20 (FIG. 1),such as an introducer sheath or other intravenous access component.Second end 112 may include a port 116 providing an opening 116 a for aninterventional tool, medicine or other suitable component to be passedthrough curvable tube 110 and into a patient access site.

In an exemplary embodiment, first end 111 includes a connector, such asan adapter 114. Adapter 114 may be removably or permanently joined tofirst end 111 and includes one or more attachment features 115configured to couple with the catheter, for example. Adapter 114 may beremovably or permanently attachable to allow communication betweencurvable tube 110 and the catheter. In an exemplary embodiment,attachment features 115 include helical threads compatible with one ormore introducer sheaths, such as the GLIDESHEATH introducer sheathavailable from Terumo Medical Corporation, SUPER SHEATH introducersheath available from Boston Scientific Corporation, INPUT introducersheath available from Medtronic, other introducer sheaths, or suitablecomponents providing vascular access to a patient for the introductionof an interventional tool, medicine, or other suitable component. Invarious exemplary embodiments, attachment features 115 may include aluer lock connector, bayonet connector, snap connector, or othersuitable attachment feature to allow secure connection between adapter114 and the catheter. In some exemplary embodiments, adapter 114 isconfigured for attachment to a second end 112 of curvable tube 110, forexample at port 116, such that two or more curvable portions may beconnected in series. In an exemplary embodiment, adapter 114 has awidened body to facilitate handling and that may be thicker thanelongate portion 113. In some embodiments, the widened body may have acurved surface or one or more features such as texture, ribs, etc. tofacilitate handling.

Second end 112 of curvable tube 110 includes a port 116, such as aseptum hub port. Port 116 includes at least a first opening 116 a forinsertion of an interventional tool that may be passed through curvabletube 110, through a component attached at first end 111, and/or into apatient access location, and may include a hemostasis valve. In someexemplary embodiments, port 116 includes a suture connector 117 definingan opening that one or more sutures may be passed through to secure port116 and second end 112 of curvable tube 110 in a desired location.

In an exemplary embodiment, port 116 defines a septum hub that a sidearm 120 may be attached to. Side arm 120 defines a central lumen and mayinclude one or more valve devices or other components, such as athree-way stop cock 122. Side arm 120 may be used to aspirate air andblood and allow for improved suction and/or aspiration of thethrombus/clot. In an exemplary embodiment, side arm 120 may flex andbend without kinking or substantially blocking the central lumen, andfor example may bend at least between a substantially straightconfiguration and a configuration forming a 180° curve, 90° curve or 45°curve.

In an exemplary embodiment, side arm 120 includes a valve or othercomponent, such as three-way stop cock 122, that may allow infusion ofcontrast, saline solution, or other component, aspiration, collection ofblood or other sample, or passage to curvable tube 110 and an accesspoint of a patient. In some exemplary embodiments, three-way stop cock122, side arm 120 and/or other suitable components of sheath assembly100 are suitable for high pressure applications. For example, three-waystop cock 122, side arm 120 and/or other suitable components may besuitable for applications requiring pressures between 400 psi and 1000psi, 600 psi and 900 psi, 700 psi and 850 psi, or about 800 psi.

Curvable tube 110 may have any suitable length as desired for aparticular application or procedure. In an exemplary embodiment,curvable portion has a length (L) between first and second ends 111, 112between approximately 5 cm and 50 cm, 10 cm and 40 cm, 15 cm and 30 cm,or about 20 cm. Such a length (L) provides a curvable tube 110 that issufficiently compact to exhibit desirable stability, while sufficientlylong to allow flexibility in positioning and configuration such that aphysician or healthcare practitioner may operate outside of a directfield of radiation or in an ergonomically desirable position. In variousexemplary embodiments, sheath assembly 100, and curvable tube 110, arecompatible with any suitable French system devices, for example up to 28French devices, 24 French device, 12 French devices, or between about 5and 8 French system devices.

In an exemplary embodiment, curvable tube 110 is made at least in partfrom a medical grade polymer including a polyether block amide (PEBA),such as PEBAX 55D available from Arkema Inc., or other suitablematerial. In some exemplary embodiments, curvable tube 110 may includeone or more additional materials lining a central lumen to provide oneor more of hydrophilicity, hydrophobicity, low friction, or othersuitable property. For example, curvable tube 110 may include aninterior surface including a polytetrafluoroethylene (PTFE), such asTEFLON available from E.I DuPont de Nemours & CO.

Curvable tube 110 may include one or more additional elements to preventkinking and/or to allow curvable tube 110 to at least partially retain acurved configuration without a separate retainer device. In an exemplaryembodiment, curvable tube 110 includes a coiled wire 119 in a polymermaterial of a wall. For example, a nitinol, stainless steel, or othersuitable coil may be impregnated in curvable tube 110 such that curvabletube 110 is flexible and kink-resistant. In some embodiments, a metalliccoil may allow curvable tube 110 to retain a curved configuration whenbent or flexed.

Curvable tube 110 is configured to bend between a substantially straightconfiguration in which first end 111 is linearly distal to second end112 (FIG. 2A), and one or more curved configurations in which first end111 is not linearly distal to second end 112 (FIG. 2B). FIG. 2B showsexemplary sheath assembly 100 with curvable tube 110 in various curvedconfigurations. Curvable tube 110 may be curved or bent withoutsubstantially kinking or otherwise blocking a central lumen or channeldefined by curvable tube 110.

In various exemplary embodiments, curvable tube 110 may be curvedbetween multiple configurations in which curvable tube 110 remainsoperational and allows passage of an interventional tool, medicine,fluid, or other suitable component through curvable tube 110 betweenfirst and second ends 111, 112. In an exemplary embodiment, curvabletube 110 is curvable at least between a substantially straightconfiguration, a first curved configuration in which the curvable tube110 forms a 180° curve and a second curved configuration in which thecurvable tube 110 forms a 90° curve. In various exemplary embodiments,curvable tube 110 may be configured to provide a maximum curve greaterthan 180°, and may be curved at any suitable angle between thesubstantially straight configuration and a configuration exhibiting amaximum curve.

Curvable tube 110 may be characterized by a diameter (D) of an arcformed when in a first curved configuration in which curvable tube 110forms a 180° curve. In various exemplary embodiments, a diameter (D) ofthe curve may be between 1 cm and 8 cm, 2 cm and 6 cm, or about 3 cm.For example, a diameter (D) of the curve may be less than 8 cm, lessthan 6 cm, less than 4 cm, less than 2 cm, or less without kinking orsubstantially blocking elongate portion 113.

In an exemplary embodiment, sheath assembly 100 includes a retainer 150configured to retain curvable tube 110 in a desired configuration. Inthe embodiment illustrated in FIG. 2B, retainer 150 includes a pluralityof retention features 151 that may selectively engage one or moreportions of curvable tube 110. In an exemplary embodiment, retainer 150may retain curvable tube 110 in a first curved configuration in whichcurvable tube 110 forms a 180° curve, and one or more additional curvedconfigurations in which curvable tube 110 is positioned to have a curveas desired for a particular application or treatment location, or toallow a physician or healthcare practitioner to more easily work outsideof a radiation field, for example. Curvable tube 110 is readilyadjustable by removing from one or more retention features 151,positioning into a desired configuration, and engaging with one or moredifferent retention features 151. In this way, first and second ends111, 112 may be retained in a particular position and orientation, asdescribed further herein.

Referring to FIGS. 3A-3C, an exemplary retainer device 250 is shown. Inan exemplary embodiment, retainer device 250 includes a frame 251 andone or more retention features 252 configured to hold a curvable portionand/or other components of an exemplary sheath assembly in a selectedconfiguration. Retainer device 250 may be positioned proximate a patientaccess site, for example, to facilitate handling and use of a sheathassembly.

Retention features 252 may include any suitable feature configured toretain one or more components of a sheath assembly in a desiredorientation. In an exemplary embodiment, retention features 252 includeone or more channels sized to receive at least a portion of a sheathassembly. For example, retainer device 250 includes a plurality ofchannels that at least a portion of a sheath assembly may be selectivelyengaged within. The plurality of channels provide a number of suitableorientations and configurations such that a sheath assembly may beretained in any of multiple curved configurations that range, forexample, in selectable increments between 0° to 180°. In variousexemplary embodiments, retainer device 250 may include channels spacedand/or oriented in 15°, 30°, 45°, 60°, 90°, or other suitable incrementsto allow an operator to select a desired configuration.

For example, retainer device 250 may include a first channel 252 a and asecond channel 252 b defining first and second channel axes A1, A2.First and second channel axes A1, A2 are parallel to and offset from oneanother, and allow portions of a sheath assembly to be retained in firstand second channels 252 a, 252 b such that a portion of the sheathassembly forms a 180° curve. Retainer device 250 may further include athird channel 252 c defining a third channel axis A3 that is angled 90°relative to the first channel axis, and a fourth channel 252 d defininga fourth channel axis A4 that is coaxial with first channel axis A1. Invarious exemplary embodiments, retainer device 250 may include one ormore channels defining channel axes that are parallel or angled 15°,30°, 45°, 60°, 115°, 135°, or any other suitable angle, relative tofirst channel axis A1, respectively.

Retainer device 250 may have any suitable configuration to retain all ora portion of a sheath assembly in a desired configuration. For example,a frame 251 of retainer device 250 may define channels 252 spaced alonga perimeter of frame 251. In an exemplary embodiment, frame 251 has asubstantially U-shaped configuration. Channels 252 are spaced about theperimeter of frame 251, and one or more channels define channel axesthat are orthogonal to the U-shaped frame. For example, U-shaped frame251 defines a U-shaped central axis 1 passing through a center portionof frame 251. First channel axis A1 is substantially perpendicular tocentral axis 1, proximate first channel 252 a. Similarly, second andthird channel axes are substantially perpendicular to frame 251 andcentral axis 1. In various exemplary embodiments, one or more channelsmay define channel axes that are angled or not orthogonal relative tocentral axis 1.

Frame 251 may have any suitable size compatible with a desired curvabletube of a sheath assembly. In an exemplary embodiment, U-shaped frame251 has an open end 256 having a width w between exterior edges of frame251 that is less than a length L of a curvable tube retained by retainer250. In various exemplary embodiments, width w is between 2 cm and 18cm, 3 cm and 15 cm, 5 cm and 10 cm, or about 6 cm.

Similarly, a distance between various channels 252 may be selected toretain a curvable tube in a desired curved configuration, for example.In an exemplary embodiment, first and second channel axes A1, A2, arefixedly positioned relative to one another and separated by a distanced. In various exemplary embodiments, distance d is between 2 cm and 18cm, 3 cm and 15 cm, 5 cm and 10 cm, or about 6 cm, and may be the sameor different than width w.

In various exemplary embodiments, frame 251 may have any suitable shapethat allows retention features, such as channels 252, to retain at leasta portion of a sheath assembly in a desired configuration. For example,frame 251 may include half of a U-shaped frame, or may include acircular, square, other suitable shape, or suitable combinationsthereof. In some exemplary embodiments, channels 252 may be positionedin a U-shaped pattern, or in another suitable pattern, on a frame 251that is not U-shaped.

In an exemplary embodiment, retainer 250 includes a base 253. In theembodiment shown in FIGS. 3A and 3C, base 253 includes a substantiallyplanar lower surface 254 that provides stability when retainer device250 is supported by or attached to a surface. For example, lower surface254 may include an adhesive and a removable liner. The liner may beremoved at a time of use to expose the adhesive of lower surface 254such that lower surface 254 and retainer device 250 may be adhered to apatient's body, for example proximate an access site, a covering, orother suitable surface where a sheath assembly may be retained. In someexample embodiments, lower surface 254 may include a medical grade foamadhesive tape, or other suitable component to adhere retainer device 250to an appropriate surface. Alternatively or additionally, base 253 mayinclude a textured or non-slip lower surface, or may include a soft orrubberized material. An adhesive or non-slip lower surface 254 maintainsretainer device 250 in a desired position and may minimize tension orstress that could otherwise result at a patient access point when aneedle, guidewire, or other component, for example, is advanced throughcurvable tube 310. Retainer device 250 may thus serve as an anchor tomaintain a catheter and/or sheath assembly in a stable position relativeto a patient access opening.

Referring to FIG. 3C a side view of retainer device 250 is shown. In anexemplary embodiment, at least some of channels 252 include upwardfacing openings 255 defined by frame 251. Openings 255 allow access torespective channels 252 such that a tube, catheter, sheath, or othersuitable component of a sheath assembly may be inserted and retainedwithin a respective channel. In some exemplary embodiments, one or moreof channels 252 are sized to frictionally retain a component of a sheathassembly, and for example may have a diameter or major dimension that issimilar to or smaller than an outer diameter or major dimension of thecomponent of the sheath assembly. Alternatively or additionally,openings 255 are defined at least in part by a flange or lip 256 suchthat opening 255 is smaller than a diameter or major dimension ofchannel 252. A component of a sheath assembly is compressed or deformedwhile passed through opening 255. The component may be retained inchannel 252 until compressed or deformed again to remove from channel252. Accordingly, a component of a sheath assembly may be readilyretained by one or more channels 252.

Frame 251 may be made from any suitable material such that one or morecomponents of a sheath assembly may be retained by retainer device 250.In an exemplary embodiment, frame 251 is integrally formed from aplastic, such as a polyamide. Such a material may provide sufficientstiffness and stability. In some embodiments, retainer device 250 isformed of a material that may not readily be plastically deformed and/orthat maintains respective channels 252 fixedly positioned relative toone another. In other exemplary embodiments, retainer device 250 may bebendable or shapable such that frame 251 may be shaped as desired by aphysician or healthcare practitioner at a time of use, and will retainits shape when a portion of a sheath assembly is engaged with retainerdevice 250.

In some exemplary embodiments, frame 251 may be made of aradio-transparent material that does not block or substantiallyinterfere with imaging equipment. A radio-transparent material may thusallow retainer device 250 to be positioned as desired based onoperational or ergonomic factors, rather than positioning as mayotherwise be necessary to avoid imaging interference.

Referring to FIGS. 4A-4D, an exemplary sheath assembly 300 is shownincluding a curvable tube 310 and a retainer device 350 in variousconfigurations. Sheath assembly 300 may be configured and positioned asdesired for a particular procedure, treatment location, or to provideoperational or ergonomic benefits and may be engaged with retainerdevice 350 to retain the desired configuration and positioning.

FIG. 4A shows curvable tube 310 of sheath assembly 300 retained in afirst curved configuration by retainer device 350. Curvable tube 310 isfrictionally retained in first and second channels 352 a, 352 b definingfirst and second channel axes A1, A2 that are parallel to and offsetfrom one another. Curvable tube 310 forms a 180° curve such that firstand second ends 311, 312, and/or an adapter 314 positioned at first end311 and port 316 positioned at second end 312 are oriented insubstantially the same direction. A physician or healthcare practitionermay insert an interventional tool or other component at port 316 in afirst direction such that the interventional tool exits curvable tube310 into a catheter and/or patient access location in a second directionthat is opposite, or rotated 180°, relative to the first direction.

In an exemplary embodiment, at least a portion of curvable tube 310forming the 180° curve is positioned within a perimeter of retainerdevice 350. That is, frame 351 forms a U-shaped perimeter, and at leasta portion of curvable tube 310 forming the curve is positioned withinthe U-shaped perimeter. Such positioning may shelter curvable tube 310and reduce or minimize a possibility of inadvertently catching orsnagging on an external object.

FIG. 4B shows curvable tube 310 of sheath assembly 300 retained in asecond curved configuration by retainer device 350. Curvable tube 310 isfrictionally retained in first and third channels 352 a, 352 c definingfirst and third channel axes A1, A3. Third channel axis A3 is angled 90relative to first channel axis A1. Curvable tube 310 thus forms a 90°curve such that first and second ends 311, 312, and/or an adapter 314positioned at first end 311 and port 316 positioned at second end 312are oriented approximately perpendicularly relative to each other. Aphysician or healthcare practitioner may insert an interventional toolor other component at port 316 in a first direction such that theinterventional tool exits curvable tube 110 into a catheter and/orpatient access location in a second direction that is rotated 90°relative to the first direction.

FIG. 4C shows curvable tube 310 of sheath assembly 300 retained in athird curved configuration by retainer device 350. Curvable tube 310 isfrictionally retained in first and fourth channels 352 a, 352 d definingfirst and fourth channel axes A1, A4. Fourth channel axis A4 is angled45° relative to first channel axis A1. Curvable tube 310 thus forms a45° curve such that first and second ends 311, 312, and/or an adapter314 positioned at first end 311 and port 316 positioned at second end312 are oriented at an angle of approximately 45° relative to eachother. A physician or healthcare practitioner may insert aninterventional tool or other component at port 316 in a first directionsuch that the interventional tool exits curvable tube 110 into acatheter and/or patient access location in a second direction that isrotated approximately 45° relative to the first direction.

FIG. 4D shows curvable tube 310 of sheath assembly 300 retained in afourth curved configuration by retainer device 350. Curvable tube 310 isfrictionally retained in first and fifth channels 352 a, 352 e definingfirst and fifth channel axes A1, A5. Fifth channel axis A5 is coaxialrelative to first channel axis A1. Curvable tube 310 thus is retained ina substantially straight configuration in which first end 111 islinearly distal to second end 112. First and second ends 311, 312,and/or an adapter 314 positioned at first end 311 and port 316positioned at second end 312 are oriented in a substantially linearconfiguration relative to each other. A physician or healthcarepractitioner may insert an interventional tool or other component atport 316 in a first direction such that the interventional tool exitscurvable tube 110 into a catheter and/or patient access location in asecond direction that is approximately the same as first direction.Curvable tube 310 may act as an extension allowing a physician orhealthcare physician to work a greater distance away from a patientaccess site and/or radiation field.

Retainer device 350 may include any number of additional channels thatdefine channel axes in any suitable orientation. For example, additionalchannels may be provided to allow curvable tube 310 to be retained inadditional configurations. Furthermore, one or more channels may beconfigured to retain curvable tube 310 in a curved configuration inwhich curvable tube 310 has multiple curves, to exhibit an S-shapedcurve or a serpentine pattern, for example.

FIG. 5 shows an exemplary sheath assembly 300 in use in a medicalenvironment. Sheath assembly 300 includes a curvable tube 310 in acurved configuration forming a 180° curve. Retainer 350 retains curvabletube 310 in the curved configuration and is adhered, for example to apatient, in a fixed position relative to a patient access point 30.Curvable tube 310 is attached to a catheter 20, such as a peripheralintravenous catheter, extending into the patient's vasculature throughan access point 30. Catheter 20 has a septum at a proximal end externalto a patient's skin that is configured to releasably mate with anadapter, for example, and defines a pathway for delivery or withdrawalof fluids, instruments such as guide wires or other interventionaltools, or a combination thereof into a patient. Catheter 20 and/or theseptum may include a hemostasis valve that minimizes back bleeding andprevents introduction of air, while permitting the introduction offluids or instruments.

In an exemplary embodiment, catheter 20 is inserted into a patient by anoperator such as a physician or healthcare practitioner. Sheath assembly300 is attached by joining first end of curvable tube 310 with a septum,for example, of catheter 21. The operator may select a straight orsuitable curved configuration for sheath assembly 300, and maintain theselected configuration by engaging portions of sheath assembly 300 withretainer 350. For example, the operator may position an elongate portionof sheath assembly 300 in one or more channels or other retentionfeatures of retainer 350.

In the illustrated embodiment, sheath assembly 300 is retained in acurved configuration including a 180° curve. The operator is able tointroduce an interventional tool 40 into port 316 of curvable tube 310in a first direction towards the patient's abdomen, for example.Interventional tool 40 passes through curvable tube 310 and entersaccess point 30, directly or indirectly, in a second direction that isopposite, or rotated 180°, relative to the first direction. Curvabletube 310 in a curved configuration thus allows a physician or healthcarepractitioner to operate away from a field of radiation 15 and/or whilein an ergonomic position. The operator's hands are positioned outside offield of radiation 15 during the operation, and the physician's head,neck and other body part's may be positioned a greater distance fromfield of radiation 15.

Sheath assembly 300 may be used in any suitable procedure, and may beparticularly advantageous in image guided surgery procedures in whichaccess site restraints may inhibit workflow or physician ergonomicsand/or expose an operator to radiation. In an exemplary embodiment,sheath assembly 300 may be used in one or more of hemodialysisintervention, arteriovenous fistula (AVF) intervention, antegradepercutaneous arterial intervention of the femoral artery or othervessel, obese patient access, contralateral groin access,electrophysiological cardiology procedures, pacemaker insertions, renalcollecting system intervention, ureteral strictures, urinary conduitformation, treatment of the biliary tree, portal venous system,gastrointestinal tract or spinal canal, and/or other suitableapplications. In various exemplary embodiments, sheath assembly 300allows a physician or healthcare practitioner to operate near anextremity and away from a patient's abdomen, chest and head. Similarly,a physician or healthcare practitioner may operate distant from amaximum radiation field that may be directed proximate a patient accesssite and/or treatment location.

In various exemplary embodiments, sheath assembly 300 provides a modularsystem that may be used with one or more additional components toprovide additional functionality and/or flexibility. For example,curvable tube 310 may be joined, directly or indirectly, with exhalableor detachable appendages. A curvable portion that is larger or having agreater length may be used for larger patients receiving lower extremityintervention, for example. A Toughy-Borst fitting may be used tofacilitate simultaneous introduction of a fluid while using a guide wireduring catheterization. A double lumen or bifurcated sheath may be usedfor therapy requiring two wires and access sites. A larger internaldiameter may be used to create relatively larger communication for asuction thrombectomy, for example.

A sheath assembly may be provided as a kit including one or morecurvable tubes, adapters, and/or retainer devices. An exemplaryembodiment of a kit includes a retainer device and first and secondcurvable tubes having the same or different lengths and/or diameters,such that a physician or healthcare practitioner may customize a sheathassembly at a time of use as desired for a particular patient ortreatment. For example, a longer curvable tube may be used to facilitateantegrade access to the femoral artery for peripheral vascular diseasetreatment of the ipsilateral extremity, and allow the physician orhealthcare practitioner to operate proximate a patient's legs ratherthan a patient's abdomen, for example. A curvable tube having a desiredlength may allow curvable tube to curve around a patient's leg andtowards the feet to provide ergonomic and operational advantages to thephysician or healthcare practitioner and patient.

In some exemplary embodiments, two or more curvable tubes may beconnected in series to provide a desired length for a particular patientor treatment. For example, a first end of a first curvable tube may beconnected to a second end of a second curvable tube to increase a lengthof the sheath assembly. A length of sheath assembly may thus becustomized by a physician or healthcare practitioner at a point of use.

While this specification contains many specific implementation details,these should not be construed as limitations on the scope of anyinvention or of what may be claimed, but rather as descriptions offeatures that may be specific to particular embodiments of particularinventions. Certain features that are described in this specification inthe context of separate embodiments can also be implemented incombination in a single embodiment in part or in whole. Conversely,various features that are described in the context of a singleembodiment can also be implemented in multiple embodiments separately orin any suitable subcombination. Moreover, although features may bedescribed herein as acting in certain combinations and/or initiallyclaimed as such, one or more features from a claimed combination can insome cases be excised from the combination, and the claimed combinationmay be directed to a subcombination or variation of a subcombination.

Similarly, while operations are depicted in the drawings in a particularorder, this should not be understood as requiring that such operationsbe performed in the particular order shown or in sequential order, orthat all illustrated operations be performed, to achieve desirableresults. In certain circumstances, multitasking and parallel processingmay be advantageous. Particular embodiments of the subject matter havebeen described. Other embodiments are within the scope of the followingclaims.

What is claimed is:
 1. A sheath assembly, comprising: a curvable tubecomprising a first end, a second end, and a lumen extending between thefirst end and the second end, the second end comprising a portconfigured to receive an interventional tool for delivery through apatient access opening, the curvable tube configured to bend between acurved configuration and a substantially straight configuration in whichthe first end is linearly distal to the second end; a retainer having aplurality of tube retainers configured to releasably retain the curvabletube in a plurality of configurations, and a base configured to anchorthe retainer to a support surface, wherein each of the base, the firstend of the curvable tube, and the second end of the curvable tube remainin a fixed position relative to the patient access opening while theinterventional tool is advanced through the curvable tube and throughthe patient access opening such that the curvable tube is retained in aselected one of the plurality of configurations; the plurality ofconfigurations including a first curved configuration in which thecurvable tube is releasably retained in a 90° curve by the retainerwhile the interventional tool is advanced through the curvable tube andthrough the patient access opening and a second curved configuration inwhich the curvable tube is releasably retained in a 180° curve by theretainer while the interventional tool is advanced through the curvabletube and through the patient access opening.
 2. The sheath assembly ofclaim 1, wherein when the curvable tube is retained in the first curvedconfiguration the interventional tool is insertable through the port ofthe curvable tube in a first direction such that the interventional toolexits the first end of the curvable tube in a second direction, thefirst direction rotated 90° relative to the second direction, while thefirst and second ends of the curvable tube remain in a fixed positionrelative to the patient access opening.
 3. The sheath assembly of claim1, wherein the first end of the curvable tube is positionable throughthe patient access opening.
 4. The sheath assembly of claim 1, whereinthe first end of the curvable tube comprises a connector.
 5. The sheathassembly of claim 1, wherein the tube retainers are fixedly positionedrelative to one another.
 6. The sheath assembly of claim 1, wherein thebase comprises a planar lower surface configured to be attached to asupport surface.
 7. The sheath assembly of claim 1, wherein the tuberetainers comprise a plurality of channels.
 8. The sheath assembly ofclaim 2, wherein when the curvable tube is retained in the second curvedconfiguration the interventional tool is insertable through the port ofthe curvable tube in a first direction such that the interventional toolexits the first end of the curvable tube in a second direction, thefirst direction rotated 180° relative to the second direction, while thefirst and second ends of the curvable tube remain in a fixed positionrelative to the patient access opening.
 9. The sheath assembly of claim4, further comprising a catheter having a distal end, a proximal end,and at least one lumen that extends between the distal end and theproximal end, the distal end configured to be positioned within apatient, and the proximal end configured to be connected to the curvabletube and positioned outside of a patient during advancement of theinterventional tool.
 10. The sheath assembly of claim 7, wherein theplurality of channels include a first channel defining a first channelaxis and a second channel defining a second channel axis and a thirdchannel defining a third channel axis, the first channel axis coaxialwith the second channel axis, the third channel axis angled 45° relativeto the first channel axis.
 11. The sheath assembly of claim 7, whereinthe plurality of channels comprise a first channel defining a firstchannel axis and a second channel defining a second channel axis, thefirst channel axis being coaxial with the second channel axis.
 12. Thesheath assembly of claim 8, wherein the plurality of configurationsincludes a third curved configuration in which the curvable tube isreleasably retained in a 45° curve by the retainer.
 13. The sheathassembly of claim 10, further comprising a fourth channel defining afourth channel axis, the fourth channel axis rotated 90° relative to thefirst channel axis, wherein the curvable tube is retained in the firstand fourth channels when in the first configuration such that theinterventional tool is insertable through the port of the curvable tubein a first direction such that the interventional tool exits the firstend of the curvable tube in a second direction, the first directionrotated 90° relative to the second direction, while the first and secondends of the curvable tube remain in a fixed position relative to thepatient access opening.
 14. The sheath assembly of claim 11, wherein thefirst channel axis and the second channel axis are perpendicular to acentral axis of the retainer.
 15. The sheath assembly of claim 12,wherein when the curvable tube is retained in the third curvedconfiguration the interventional tool is insertable through the port ofthe curvable tube in the first direction such that the interventionaltool exits the first end of the curvable tube in the second direction,the first direction rotated 45° relative to the second direction, whilethe first and second ends of the curvable tube remain in a fixedposition relative to the patient access opening.
 16. A sheath assembly,comprising: a curvable tube comprising a first end, a second end, and alumen extending between the first end and the second end, the second endcomprising a port configured to receive an interventional tool fordelivery through a patient access opening, the curvable tube configuredto bend between a curved configuration and a substantially straightconfiguration in which the first end is linearly distal to the secondend; a retainer having a plurality of tube retainers configured toreleasably retain the first end and the second end of the curvable tubein a plurality of configurations, and a base configured to anchor theretainer to a support surface, wherein each of the base, the first endof the curvable tube, and the second end of the curvable tube remain ina fixed position relative to the patient access opening while theinterventional tool is advanced through the curvable tube and throughthe patient access opening such that the curvable tube is retained in aselected one of the plurality of configurations; and further comprisinga catheter having a distal end, a proximal end, and at least one lumenthat extends between the distal end and the proximal end, the distal endconfigured to be positioned within a patient, and the proximal endconfigured to be connected to the curvable tube and positioned outsideof a patient during advancement of the interventional tool; wherein thefirst end of the curvable tube comprises a connector; and wherein theconnector is permanently affixed with the lumen of the curvable tube.17. The sheath assembly of claim 16, wherein the proximal end of thecatheter comprises a sealable connector having a septum.
 18. A sheathassembly, comprising: a curvable tube comprising a first end, a secondend, and a lumen extending between the first end and the second end, thesecond end comprising a port configured to receive an interventionaltool for delivery through a patient access opening, the curvable tubeconfigured to bend between a curved configuration and a substantiallystraight configuration in which the first end is linearly distal to thesecond end, the interventional tool insertable through the curvable tubewhile the curvable tube is in the curved configuration; a retainerhaving a plurality of tube retainers configured to releasably retain thecurvable tube in a plurality of configurations, the plurality of tuberetainers fixedly positioned relative to one another, and a baseconfigured to anchor the retainer to a support surface wherein each ofthe base and first and second ends of the curvable tube remain in afixed position relative to the patient access opening such that thecurvable tube is retained in a selected one of the plurality ofconfigurations while the interventional tool is advanced through thecurvable tube and through the patient access opening, the plurality ofconfigurations including a first curved configuration in which thecurvable tube is releasably retained in a 90° curve by the retainerwhile the interventional tool is advanced through the curvable tube andthrough the patient access opening and a second curved configuration inwhich the curvable tube is releasably retained in a 180° curve by theretainer while the interventional tool is advanced through the curvabletube and through the patient access opening; wherein the interventionaltool is insertable through the port of the curvable tube in a firstdirection such that the interventional tool exits the first end of thecurvable tube in a second direction while the curvable tube remains in aposition relative to the patient access opening, the first directionrotated relative to the second direction.
 19. The sheath assembly ofclaim 18, wherein the first end of the curvable tube is positionablethrough the patient access opening.
 20. The sheath assembly of claim 18,wherein the first end of the curvable tube comprises a connector. 21.The sheath assembly of claim 18, wherein the base comprises a planarlower surface configured to be attached to a support surface.
 22. Thesheath assembly of claim 20, further comprising a catheter having adistal end, a proximal end, and at least one lumen extending between thedistal end and the proximal end, the distal end configured to bepositioned within a patient, and the proximal end configured to beconnected to the curvable tube and positioned outside of a patientduring advancement of the interventional tool.